X-Git-Url: http://git.nikiroo.be/?a=blobdiff_plain;f=src%2Fjexer%2Ftterminal%2FECMA48.java;h=1d3481169cc5300c5134c652e7745a962f42a2ec;hb=12b90437b5f22c2ae6e9b9b14c3b62b60f6143e5;hp=00aa05bcf379d524f59b332fffc96b0717e46411;hpb=9696a8f6da9a0d204740420d6d8571176ab81944;p=fanfix.git diff --git a/src/jexer/tterminal/ECMA48.java b/src/jexer/tterminal/ECMA48.java index 00aa05b..1d34811 100644 --- a/src/jexer/tterminal/ECMA48.java +++ b/src/jexer/tterminal/ECMA48.java @@ -28,6 +28,8 @@ */ package jexer.tterminal; +import java.awt.Graphics2D; +import java.awt.image.BufferedImage; import java.io.BufferedOutputStream; import java.io.CharArrayWriter; import java.io.InputStream; @@ -41,13 +43,18 @@ import java.io.UnsupportedEncodingException; import java.io.Writer; import java.util.ArrayList; import java.util.Collections; +import java.util.HashMap; import java.util.List; import jexer.TKeypress; -import jexer.event.TMouseEvent; +import jexer.backend.GlyphMaker; import jexer.bits.Color; import jexer.bits.Cell; import jexer.bits.CellAttributes; +import jexer.bits.StringUtils; +import jexer.event.TInputEvent; +import jexer.event.TKeypressEvent; +import jexer.event.TMouseEvent; import jexer.io.ReadTimeoutException; import jexer.io.TimeoutInputStream; import static jexer.TKeypress.*; @@ -136,6 +143,7 @@ public class ECMA48 implements Runnable { DCS_PARAM, DCS_PASSTHROUGH, DCS_IGNORE, + DCS_SIXEL, SOSPMAPC_STRING, OSC_STRING, VT52_DIRECT_CURSOR_ADDRESS @@ -209,7 +217,7 @@ public class ECMA48 implements Runnable { /** * XTERM mouse reporting protocols. */ - private enum MouseProtocol { + public enum MouseProtocol { OFF, X10, NORMAL, @@ -342,7 +350,7 @@ public class ECMA48 implements Runnable { /** * Last character printed. */ - private char repCh; + private int repCh; /** * VT100-style line wrapping: a character is placed in column 80 (or @@ -458,6 +466,43 @@ public class ECMA48 implements Runnable { */ private List colors88; + /** + * Sixel collection buffer. + */ + private StringBuilder sixelParseBuffer; + + /** + * Sixel shared palette. + */ + private HashMap sixelPalette; + + /** + * The width of a character cell in pixels. + */ + private int textWidth = 16; + + /** + * The height of a character cell in pixels. + */ + private int textHeight = 20; + + /** + * The last used height of a character cell in pixels, only used for + * full-width chars. + */ + private int lastTextHeight = -1; + + /** + * The glyph drawer for full-width chars. + */ + private GlyphMaker glyphMaker = null; + + /** + * Input queue for keystrokes and mouse events to send to the remote + * side. + */ + private ArrayList userQueue = new ArrayList(); + /** * DECSC/DECRC save/restore a subset of the total state. This class * encapsulates those specific flags/modes. @@ -650,12 +695,18 @@ public class ECMA48 implements Runnable { char [] readBufferUTF8 = null; byte [] readBuffer = null; if (utf8) { - readBufferUTF8 = new char[128]; + readBufferUTF8 = new char[2048]; } else { - readBuffer = new byte[128]; + readBuffer = new byte[2048]; } while (!done && !stopReaderThread) { + synchronized (userQueue) { + while (userQueue.size() > 0) { + handleUserEvent(userQueue.remove(0)); + } + } + try { int n = inputStream.available(); @@ -677,7 +728,7 @@ public class ECMA48 implements Runnable { } if (n == 0) { try { - Thread.sleep(2); + Thread.sleep(10); } catch (InterruptedException e) { // SQUASH } @@ -704,15 +755,17 @@ public class ECMA48 implements Runnable { } else { // Don't step on UI events synchronized (this) { - for (int i = 0; i < rc; i++) { - int ch = 0; - if (utf8) { - ch = readBufferUTF8[i]; - } else { - ch = readBuffer[i]; + if (utf8) { + for (int i = 0; i < rc;) { + int ch = Character.codePointAt(readBufferUTF8, + i); + i += Character.charCount(ch); + consume(ch); + } + } else { + for (int i = 0; i < rc; i++) { + consume(readBuffer[i]); } - - consume((char) ch); } } // Permit my enclosing UI to know that I updated. @@ -778,6 +831,31 @@ public class ECMA48 implements Runnable { // ECMA48 ----------------------------------------------------------------- // ------------------------------------------------------------------------ + /** + * Process keyboard and mouse events from the user. + * + * @param event the input event to consume + */ + private void handleUserEvent(final TInputEvent event) { + if (event instanceof TKeypressEvent) { + keypress(((TKeypressEvent) event).getKey()); + } + if (event instanceof TMouseEvent) { + mouse((TMouseEvent) event); + } + } + + /** + * Add a keyboard and mouse event from the user to the queue. + * + * @param event the input event to consume + */ + public void addUserEvent(final TInputEvent event) { + synchronized (userQueue) { + userQueue.add(event); + } + } + /** * Return the proper primary Device Attributes string. * @@ -798,10 +876,12 @@ public class ECMA48 implements Runnable { case XTERM: // "I am a VT220" - 7 bit version if (!s8c1t) { - return "\033[?62;1;6c"; + return "\033[?62;1;6;9;4;22c"; + // return "\033[?62;1;6;9;4;22;444c"; } // "I am a VT220" - 8 bit version - return "\u009b?62;1;6c"; + return "\u009b?62;1;6;9;4;22c"; + // return "\u009b?62;1;6;9;4;22;444c"; default: throw new IllegalArgumentException("Invalid device type: " + type); } @@ -1005,6 +1085,64 @@ public class ECMA48 implements Runnable { return display; } + /** + * Get the visible display + scrollback buffer, offset by a specified + * number of rows from the bottom. + * + * @param visibleHeight the total height of the display to show + * @param scrollBottom the number of rows from the bottom to scroll back + * @return a copy of the display + scrollback buffers + */ + public final List getVisibleDisplay(final int visibleHeight, + final int scrollBottom) { + + assert (visibleHeight >= 0); + assert (scrollBottom >= 0); + + int visibleBottom = scrollback.size() + display.size() - scrollBottom; + + List preceedingBlankLines = new ArrayList(); + int visibleTop = visibleBottom - visibleHeight; + if (visibleTop < 0) { + for (int i = visibleTop; i < 0; i++) { + preceedingBlankLines.add(getBlankDisplayLine()); + } + visibleTop = 0; + } + assert (visibleTop >= 0); + + List displayLines = new ArrayList(); + displayLines.addAll(scrollback); + displayLines.addAll(display); + + List visibleLines = new ArrayList(); + visibleLines.addAll(preceedingBlankLines); + visibleLines.addAll(displayLines.subList(visibleTop, visibleBottom)); + + // Fill in the blank lines on bottom + int bottomBlankLines = visibleHeight - visibleLines.size(); + assert (bottomBlankLines >= 0); + for (int i = 0; i < bottomBlankLines; i++) { + visibleLines.add(getBlankDisplayLine()); + } + + return copyBuffer(visibleLines); + } + + /** + * Copy a display buffer. + * + * @param buffer the buffer to copy + * @return a deep copy of the buffer's data + */ + private List copyBuffer(final List buffer) { + ArrayList result = new ArrayList(buffer.size()); + for (DisplayLine line: buffer) { + result.add(new DisplayLine(line)); + } + return result; + } + /** * Get the display width. * @@ -1019,7 +1157,7 @@ public class ECMA48 implements Runnable { * * @param width the new width */ - public final void setWidth(final int width) { + public final synchronized void setWidth(final int width) { this.width = width; rightMargin = width - 1; if (currentState.cursorX >= width) { @@ -1044,7 +1182,7 @@ public class ECMA48 implements Runnable { * * @param height the new height */ - public final void setHeight(final int height) { + public final synchronized void setHeight(final int height) { int delta = height - this.height; this.height = height; scrollRegionBottom += delta; @@ -1355,9 +1493,38 @@ public class ECMA48 implements Runnable { * * @param ch character to display */ - private void printCharacter(final char ch) { + private void printCharacter(final int ch) { int rightMargin = this.rightMargin; + if (StringUtils.width(ch) == 2) { + // This is a full-width character. Save two spaces, and then + // draw the character as two image halves. + int x0 = currentState.cursorX; + int y0 = currentState.cursorY; + printCharacter(' '); + printCharacter(' '); + if ((currentState.cursorX == x0 + 2) + && (currentState.cursorY == y0) + ) { + // We can draw both halves of the character. + drawHalves(x0, y0, x0 + 1, y0, ch); + } else if ((currentState.cursorX == x0 + 1) + && (currentState.cursorY == y0) + ) { + // VT100 line wrap behavior: we should be at the right + // margin. We can draw both halves of the character. + drawHalves(x0, y0, x0 + 1, y0, ch); + } else { + // The character splits across the line. Draw the entire + // character on the new line, giving one more space for it. + x0 = currentState.cursorX - 1; + y0 = currentState.cursorY; + printCharacter(' '); + drawHalves(x0, y0, x0 + 1, y0, ch); + } + return; + } + // Check if we have double-width, and if so chop at 40/66 instead of // 80/132 if (display.get(currentState.cursorY).isDoubleWidth()) { @@ -1408,19 +1575,22 @@ public class ECMA48 implements Runnable { CellAttributes newCellAttributes = (CellAttributes) newCell; newCellAttributes.setTo(currentState.attr); DisplayLine line = display.get(currentState.cursorY); - // Insert mode special case - if (insertMode == true) { - line.insert(currentState.cursorX, newCell); - } else { - // Replace an existing character - line.replace(currentState.cursorX, newCell); - } - // Increment horizontal - if (wrapLineFlag == false) { - currentState.cursorX++; - if (currentState.cursorX > rightMargin) { - currentState.cursorX--; + if (StringUtils.width(ch) == 1) { + // Insert mode special case + if (insertMode == true) { + line.insert(currentState.cursorX, newCell); + } else { + // Replace an existing character + line.replace(currentState.cursorX, newCell); + } + + // Increment horizontal + if (wrapLineFlag == false) { + currentState.cursorX++; + if (currentState.cursorX > rightMargin) { + currentState.cursorX--; + } } } } @@ -1431,7 +1601,7 @@ public class ECMA48 implements Runnable { * * @param mouse mouse event received from the local user */ - public void mouse(final TMouseEvent mouse) { + private void mouse(final TMouseEvent mouse) { /* System.err.printf("mouse(): protocol %s encoding %s mouse %s\n", @@ -1579,7 +1749,7 @@ public class ECMA48 implements Runnable { * * @param keypress keypress received from the local user */ - public void keypress(final TKeypress keypress) { + private void keypress(final TKeypress keypress) { writeRemote(keypressToString(keypress)); } @@ -1638,11 +1808,14 @@ public class ECMA48 implements Runnable { * the remote side. */ if (keypress.getChar() < 0x20) { - handleControlChar(keypress.getChar()); + handleControlChar((char) keypress.getChar()); } else { // Local echo for everything else printCharacter(keypress.getChar()); } + if (displayListener != null) { + displayListener.displayChanged(); + } } if ((newLineMode == true) && (keypress.equals(kbEnter))) { @@ -1653,17 +1826,17 @@ public class ECMA48 implements Runnable { // Handle control characters if ((keypress.isCtrl()) && (!keypress.isFnKey())) { StringBuilder sb = new StringBuilder(); - char ch = keypress.getChar(); + int ch = keypress.getChar(); ch -= 0x40; - sb.append(ch); + sb.append(Character.toChars(ch)); return sb.toString(); } // Handle alt characters if ((keypress.isAlt()) && (!keypress.isFnKey())) { StringBuilder sb = new StringBuilder("\033"); - char ch = keypress.getChar(); - sb.append(ch); + int ch = keypress.getChar(); + sb.append(Character.toChars(ch)); return sb.toString(); } @@ -2215,7 +2388,7 @@ public class ECMA48 implements Runnable { // Non-alt, non-ctrl characters if (!keypress.isFnKey()) { StringBuilder sb = new StringBuilder(); - sb.append(keypress.getChar()); + sb.append(Character.toChars(keypress.getChar())); return sb.toString(); } return ""; @@ -2230,7 +2403,7 @@ public class ECMA48 implements Runnable { * @param charsetGr character set defined for GR * @return character to display on the screen */ - private char mapCharacterCharset(final char ch, + private char mapCharacterCharset(final int ch, final CharacterSet charsetGl, final CharacterSet charsetGr) { @@ -2308,7 +2481,7 @@ public class ECMA48 implements Runnable { * @param ch either 8-bit or Unicode character from the remote side * @return character to display on the screen */ - private char mapCharacter(final char ch) { + private int mapCharacter(final int ch) { if (ch >= 0x100) { // Unicode character, just return it return ch; @@ -2662,7 +2835,7 @@ public class ECMA48 implements Runnable { csiParams.set(csiParams.size() - 1, x); } - if (ch == ';') { + if ((ch == ';') && (csiParams.size() < 16)) { csiParams.add(Integer.valueOf(0)); } } @@ -2711,6 +2884,7 @@ public class ECMA48 implements Runnable { */ private void setToggle(final boolean value) { boolean decPrivateModeFlag = false; + for (int i = 0; i < collectBuffer.length(); i++) { if (collectBuffer.charAt(i) == '?') { decPrivateModeFlag = true; @@ -2977,6 +3151,21 @@ public class ECMA48 implements Runnable { break; + case 80: + if (type == DeviceType.XTERM) { + if (decPrivateModeFlag == true) { + if (value == true) { + // Enable sixel scrolling (default). + // TODO + } else { + // Disable sixel scrolling. + // TODO + } + } + } + + break; + case 1000: if ((type == DeviceType.XTERM) && (decPrivateModeFlag == true) @@ -3042,6 +3231,22 @@ public class ECMA48 implements Runnable { } break; + case 1070: + if (type == DeviceType.XTERM) { + if (decPrivateModeFlag == true) { + if (value == true) { + // Use private color registers for each sixel + // graphic (default). + sixelPalette = null; + } else { + // Use shared color registers for each sixel + // graphic. + sixelPalette = new HashMap(); + } + } + } + break; + default: break; @@ -3355,8 +3560,7 @@ public class ECMA48 implements Runnable { * DECALN - Screen alignment display. */ private void decaln() { - Cell newCell = new Cell(); - newCell.setChar('E'); + Cell newCell = new Cell('E'); for (DisplayLine line: display) { for (int i = 0; i < line.length(); i++) { line.replace(i, newCell); @@ -4095,12 +4299,12 @@ public class ECMA48 implements Runnable { if (collectBuffer.charAt(0) == '>') { extendedFlag = 1; if (collectBuffer.length() >= 2) { - i = Integer.parseInt(args.toString()); + i = Integer.parseInt(args); } } else if (collectBuffer.charAt(0) == '=') { extendedFlag = 2; if (collectBuffer.length() >= 2) { - i = Integer.parseInt(args.toString()); + i = Integer.parseInt(args); } } else { // Unknown code, bail out @@ -4542,7 +4746,7 @@ public class ECMA48 implements Runnable { args = collectBuffer.substring(0, collectBuffer.length() - 2); } - String [] p = args.toString().split(";"); + String [] p = args.split(";"); if (p.length > 0) { if ((p[0].equals("0")) || (p[0].equals("2"))) { if (p.length > 1) { @@ -4561,6 +4765,38 @@ public class ECMA48 implements Runnable { } } } + + if (p[0].equals("10")) { + if (p[1].equals("?")) { + // Respond with foreground color. + java.awt.Color color = jexer.backend.SwingTerminal.attrToForegroundColor(currentState.attr); + + writeRemote(String.format( + "\033]10;rgb:%04x/%04x/%04x\033\\", + color.getRed() << 8, + color.getGreen() << 8, + color.getBlue() << 8)); + } + } + + if (p[0].equals("11")) { + if (p[1].equals("?")) { + // Respond with background color. + java.awt.Color color = jexer.backend.SwingTerminal.attrToBackgroundColor(currentState.attr); + + writeRemote(String.format( + "\033]11;rgb:%04x/%04x/%04x\033\\", + color.getRed() << 8, + color.getGreen() << 8, + color.getBlue() << 8)); + } + } + + if (p[0].equals("444") && (p.length == 5)) { + // Jexer image + parseJexerImage(p[1], p[2], p[3], p[4]); + } + } // Go to SCAN_GROUND state @@ -4601,19 +4837,82 @@ public class ECMA48 implements Runnable { } } + /** + * Perform xterm window operations. + */ + private void xtermWindowOps() { + boolean xtermPrivateModeFlag = false; + + for (int i = 0; i < collectBuffer.length(); i++) { + if (collectBuffer.charAt(i) == '?') { + xtermPrivateModeFlag = true; + break; + } + } + + int i = getCsiParam(0, 0); + + if (!xtermPrivateModeFlag) { + switch (i) { + case 14: + // Report xterm text area size in pixels as CSI 4 ; height ; + // width t + writeRemote(String.format("\033[4;%d;%dt", textHeight * height, + textWidth * width)); + break; + case 16: + // Report character size in pixels as CSI 6 ; height ; width + // t + writeRemote(String.format("\033[6;%d;%dt", textHeight, + textWidth)); + break; + case 18: + // Report the text are size in characters as CSI 8 ; height ; + // width t + writeRemote(String.format("\033[8;%d;%dt", height, width)); + break; + default: + break; + } + } + } + + /** + * Respond to xterm sixel query. + */ + private void xtermSixelQuery() { + int item = getCsiParam(0, 0); + int action = getCsiParam(1, 0); + int value = getCsiParam(2, 0); + + switch (item) { + case 1: + if (action == 1) { + // Report number of color registers. + writeRemote(String.format("\033[?%d;%d;%dS", item, 0, 1024)); + return; + } + break; + default: + break; + } + // We will not support this option. + writeRemote(String.format("\033[?%d;%dS", item, action)); + } + /** * Run this input character through the ECMA48 state machine. * * @param ch character from the remote side */ - private void consume(char ch) { + private void consume(int ch) { // DEBUG - // System.err.printf("%c", ch); + // System.err.printf("%c STATE = %s\n", ch, scanState); // Special case for VT10x: 7-bit characters only if ((type == DeviceType.VT100) || (type == DeviceType.VT102)) { - ch = (char)(ch & 0x7F); + ch = (ch & 0x7F); } // Special "anywhere" states @@ -4631,9 +4930,11 @@ public class ECMA48 implements Runnable { if (ch == 0x1B) { if ((type == DeviceType.XTERM) && ((scanState == ScanState.OSC_STRING) + || (scanState == ScanState.DCS_SIXEL) || (scanState == ScanState.SOSPMAPC_STRING)) ) { // Xterm can pass ESCAPE to its OSC sequence. + // Xterm can pass ESCAPE to its DCS sequence. // Jexer can pass ESCAPE to its PM sequence. } else if ((scanState != ScanState.DCS_ENTRY) && (scanState != ScanState.DCS_INTERMEDIATE) @@ -4641,7 +4942,6 @@ public class ECMA48 implements Runnable { && (scanState != ScanState.DCS_PARAM) && (scanState != ScanState.DCS_PASSTHROUGH) ) { - scanState = ScanState.ESCAPE; return; } @@ -4682,7 +4982,7 @@ public class ECMA48 implements Runnable { // 00-17, 19, 1C-1F --> execute // 80-8F, 91-9A, 9C --> execute if ((ch <= 0x1F) || ((ch >= 0x80) && (ch <= 0x9F))) { - handleControlChar(ch); + handleControlChar((char) ch); } // 20-7F --> print @@ -4709,13 +5009,13 @@ public class ECMA48 implements Runnable { case ESCAPE: // 00-17, 19, 1C-1F --> execute if (ch <= 0x1F) { - handleControlChar(ch); + handleControlChar((char) ch); return; } // 20-2F --> collect, then switch to ESCAPE_INTERMEDIATE if ((ch >= 0x20) && (ch <= 0x2F)) { - collect(ch); + collect((char) ch); scanState = ScanState.ESCAPE_INTERMEDIATE; return; } @@ -5051,12 +5351,12 @@ public class ECMA48 implements Runnable { case ESCAPE_INTERMEDIATE: // 00-17, 19, 1C-1F --> execute if (ch <= 0x1F) { - handleControlChar(ch); + handleControlChar((char) ch); } // 20-2F --> collect if ((ch >= 0x20) && (ch <= 0x2F)) { - collect(ch); + collect((char) ch); } // 30-7E --> dispatch, then switch to GROUND @@ -5658,12 +5958,12 @@ public class ECMA48 implements Runnable { case CSI_ENTRY: // 00-17, 19, 1C-1F --> execute if (ch <= 0x1F) { - handleControlChar(ch); + handleControlChar((char) ch); } // 20-2F --> collect, then switch to CSI_INTERMEDIATE if ((ch >= 0x20) && (ch <= 0x2F)) { - collect(ch); + collect((char) ch); scanState = ScanState.CSI_INTERMEDIATE; } @@ -5679,7 +5979,7 @@ public class ECMA48 implements Runnable { // 3C-3F --> collect, then switch to CSI_PARAM if ((ch >= 0x3C) && (ch <= 0x3F)) { - collect(ch); + collect((char) ch); scanState = ScanState.CSI_PARAM; } @@ -5763,7 +6063,18 @@ public class ECMA48 implements Runnable { case 'S': // Scroll up X lines (default 1) if (type == DeviceType.XTERM) { - su(); + boolean xtermPrivateModeFlag = false; + for (int i = 0; i < collectBuffer.length(); i++) { + if (collectBuffer.charAt(i) == '?') { + xtermPrivateModeFlag = true; + break; + } + } + if (xtermPrivateModeFlag) { + xtermSixelQuery(); + } else { + su(); + } } break; case 'T': @@ -5886,6 +6197,10 @@ public class ECMA48 implements Runnable { } break; case 't': + if (type == DeviceType.XTERM) { + // Window operations + xtermWindowOps(); + } break; case 'u': // Restore cursor (ANSI.SYS) @@ -5927,12 +6242,12 @@ public class ECMA48 implements Runnable { case CSI_PARAM: // 00-17, 19, 1C-1F --> execute if (ch <= 0x1F) { - handleControlChar(ch); + handleControlChar((char) ch); } // 20-2F --> collect, then switch to CSI_INTERMEDIATE if ((ch >= 0x20) && (ch <= 0x2F)) { - collect(ch); + collect((char) ch); scanState = ScanState.CSI_INTERMEDIATE; } @@ -6033,7 +6348,18 @@ public class ECMA48 implements Runnable { case 'S': // Scroll up X lines (default 1) if (type == DeviceType.XTERM) { - su(); + boolean xtermPrivateModeFlag = false; + for (int i = 0; i < collectBuffer.length(); i++) { + if (collectBuffer.charAt(i) == '?') { + xtermPrivateModeFlag = true; + break; + } + } + if (xtermPrivateModeFlag) { + xtermSixelQuery(); + } else { + su(); + } } break; case 'T': @@ -6149,7 +6475,13 @@ public class ECMA48 implements Runnable { decstbm(); break; case 's': + break; case 't': + if (type == DeviceType.XTERM) { + // Window operations + xtermWindowOps(); + } + break; case 'u': case 'v': case 'w': @@ -6175,12 +6507,12 @@ public class ECMA48 implements Runnable { case CSI_INTERMEDIATE: // 00-17, 19, 1C-1F --> execute if (ch <= 0x1F) { - handleControlChar(ch); + handleControlChar((char) ch); } // 20-2F --> collect if ((ch >= 0x20) && (ch <= 0x2F)) { - collect(ch); + collect((char) ch); } // 0x30-3F goes to CSI_IGNORE @@ -6288,12 +6620,12 @@ public class ECMA48 implements Runnable { case CSI_IGNORE: // 00-17, 19, 1C-1F --> execute if (ch <= 0x1F) { - handleControlChar(ch); + handleControlChar((char) ch); } // 20-2F --> collect if ((ch >= 0x20) && (ch <= 0x2F)) { - collect(ch); + collect((char) ch); } // 40-7E --> ignore, then switch to GROUND @@ -6314,7 +6646,7 @@ public class ECMA48 implements Runnable { // 0x1B 0x5C goes to GROUND if (ch == 0x1B) { - collect(ch); + collect((char) ch); } if (ch == 0x5C) { if ((collectBuffer.length() > 0) @@ -6326,7 +6658,7 @@ public class ECMA48 implements Runnable { // 20-2F --> collect, then switch to DCS_INTERMEDIATE if ((ch >= 0x20) && (ch <= 0x2F)) { - collect(ch); + collect((char) ch); scanState = ScanState.DCS_INTERMEDIATE; } @@ -6342,7 +6674,7 @@ public class ECMA48 implements Runnable { // 3C-3F --> collect, then switch to DCS_PARAM if ((ch >= 0x3C) && (ch <= 0x3F)) { - collect(ch); + collect((char) ch); scanState = ScanState.DCS_PARAM; } @@ -6353,8 +6685,12 @@ public class ECMA48 implements Runnable { scanState = ScanState.DCS_IGNORE; } - // 0x40-7E goes to DCS_PASSTHROUGH - if ((ch >= 0x40) && (ch <= 0x7E)) { + // 0x71 goes to DCS_SIXEL + if (ch == 0x71) { + sixelParseBuffer = new StringBuilder(); + scanState = ScanState.DCS_SIXEL; + } else if ((ch >= 0x40) && (ch <= 0x7E)) { + // 0x40-7E goes to DCS_PASSTHROUGH scanState = ScanState.DCS_PASSTHROUGH; } return; @@ -6368,7 +6704,7 @@ public class ECMA48 implements Runnable { // 0x1B 0x5C goes to GROUND if (ch == 0x1B) { - collect(ch); + collect((char) ch); } if (ch == 0x5C) { if ((collectBuffer.length() > 0) @@ -6400,7 +6736,7 @@ public class ECMA48 implements Runnable { // 0x1B 0x5C goes to GROUND if (ch == 0x1B) { - collect(ch); + collect((char) ch); } if (ch == 0x5C) { if ((collectBuffer.length() > 0) @@ -6412,7 +6748,7 @@ public class ECMA48 implements Runnable { // 20-2F --> collect, then switch to DCS_INTERMEDIATE if ((ch >= 0x20) && (ch <= 0x2F)) { - collect(ch); + collect((char) ch); scanState = ScanState.DCS_INTERMEDIATE; } @@ -6434,8 +6770,12 @@ public class ECMA48 implements Runnable { scanState = ScanState.DCS_IGNORE; } - // 0x40-7E goes to DCS_PASSTHROUGH - if ((ch >= 0x40) && (ch <= 0x7E)) { + // 0x71 goes to DCS_SIXEL + if (ch == 0x71) { + sixelParseBuffer = new StringBuilder(); + scanState = ScanState.DCS_SIXEL; + } else if ((ch >= 0x40) && (ch <= 0x7E)) { + // 0x40-7E goes to DCS_PASSTHROUGH scanState = ScanState.DCS_PASSTHROUGH; } return; @@ -6448,7 +6788,7 @@ public class ECMA48 implements Runnable { // 0x1B 0x5C goes to GROUND if (ch == 0x1B) { - collect(ch); + collect((char) ch); } if (ch == 0x5C) { if ((collectBuffer.length() > 0) @@ -6459,17 +6799,20 @@ public class ECMA48 implements Runnable { } // 00-17, 19, 1C-1F, 20-7E --> put - // TODO if (ch <= 0x17) { + // We ignore all DCS except sixel. return; } if (ch == 0x19) { + // We ignore all DCS except sixel. return; } if ((ch >= 0x1C) && (ch <= 0x1F)) { + // We ignore all DCS except sixel. return; } if ((ch >= 0x20) && (ch <= 0x7E)) { + // We ignore all DCS except sixel. return; } @@ -6487,16 +6830,51 @@ public class ECMA48 implements Runnable { return; + case DCS_SIXEL: + // 0x9C goes to GROUND + if (ch == 0x9C) { + parseSixel(); + toGround(); + return; + } + + // 0x1B 0x5C goes to GROUND + if (ch == 0x1B) { + collect((char) ch); + return; + } + if (ch == 0x5C) { + if ((collectBuffer.length() > 0) + && (collectBuffer.charAt(collectBuffer.length() - 1) == 0x1B) + ) { + parseSixel(); + toGround(); + return; + } + } + + // 00-17, 19, 1C-1F, 20-7E --> put + if ((ch <= 0x17) + || (ch == 0x19) + || ((ch >= 0x1C) && (ch <= 0x1F)) + || ((ch >= 0x20) && (ch <= 0x7E)) + ) { + sixelParseBuffer.append((char) ch); + } + + // 7F --> ignore + return; + case SOSPMAPC_STRING: // 00-17, 19, 1C-1F, 20-7F --> ignore // Special case for Jexer: PM can pass one control character if (ch == 0x1B) { - pmPut(ch); + pmPut((char) ch); } if ((ch >= 0x20) && (ch <= 0x7F)) { - pmPut(ch); + pmPut((char) ch); } // 0x9C goes to GROUND @@ -6509,14 +6887,14 @@ public class ECMA48 implements Runnable { case OSC_STRING: // Special case for Xterm: OSC can pass control characters if ((ch == 0x9C) || (ch == 0x07) || (ch == 0x1B)) { - oscPut(ch); + oscPut((char) ch); } // 00-17, 19, 1C-1F --> ignore // 20-7F --> osc_put if ((ch >= 0x20) && (ch <= 0x7F)) { - oscPut(ch); + oscPut((char) ch); } // 0x9C goes to GROUND @@ -6529,7 +6907,7 @@ public class ECMA48 implements Runnable { case VT52_DIRECT_CURSOR_ADDRESS: // This is a special case for the VT52 sequence "ESC Y l c" if (collectBuffer.length() == 0) { - collect(ch); + collect((char) ch); } else if (collectBuffer.length() == 1) { // We've got the two characters, one in the buffer and the // other in ch. @@ -6573,4 +6951,311 @@ public class ECMA48 implements Runnable { return hideMousePointer; } + /** + * Get the mouse protocol. + * + * @return MouseProtocol.OFF, MouseProtocol.X10, etc. + */ + public MouseProtocol getMouseProtocol() { + return mouseProtocol; + } + + /** + * Draw the left and right cells of a two-cell-wide (full-width) glyph. + * + * @param leftX the x position to draw the left half to + * @param leftY the y position to draw the left half to + * @param rightX the x position to draw the right half to + * @param rightY the y position to draw the right half to + * @param ch the character to draw + */ + private void drawHalves(final int leftX, final int leftY, + final int rightX, final int rightY, final int ch) { + + // System.err.println("drawHalves(): " + Integer.toHexString(ch)); + + if (lastTextHeight != textHeight) { + glyphMaker = GlyphMaker.getInstance(textHeight); + lastTextHeight = textHeight; + } + + Cell cell = new Cell(ch, currentState.attr); + BufferedImage image = glyphMaker.getImage(cell, textWidth * 2, + textHeight); + BufferedImage leftImage = image.getSubimage(0, 0, textWidth, + textHeight); + BufferedImage rightImage = image.getSubimage(textWidth, 0, textWidth, + textHeight); + + Cell left = new Cell(cell); + left.setImage(leftImage); + left.setWidth(Cell.Width.LEFT); + display.get(leftY).replace(leftX, left); + + Cell right = new Cell(cell); + right.setImage(rightImage); + right.setWidth(Cell.Width.RIGHT); + display.get(rightY).replace(rightX, right); + } + + /** + * Set the width of a character cell in pixels. + * + * @param textWidth the width in pixels of a character cell + */ + public void setTextWidth(final int textWidth) { + this.textWidth = textWidth; + } + + /** + * Set the height of a character cell in pixels. + * + * @param textHeight the height in pixels of a character cell + */ + public void setTextHeight(final int textHeight) { + this.textHeight = textHeight; + } + + /** + * Parse a sixel string into a bitmap image, and overlay that image onto + * the text cells. + */ + private void parseSixel() { + + /* + System.err.println("parseSixel(): '" + sixelParseBuffer.toString() + + "'"); + */ + + Sixel sixel = new Sixel(sixelParseBuffer.toString(), sixelPalette); + BufferedImage image = sixel.getImage(); + + // System.err.println("parseSixel(): image " + image); + + if (image == null) { + // Sixel data was malformed in some way, bail out. + return; + } + + /* + * Procedure: + * + * Break up the image into text cell sized pieces as a new array of + * Cells. + * + * Note original column position x0. + * + * For each cell: + * + * 1. Advance (printCharacter(' ')) for horizontal increment, or + * index (linefeed() + cursorPosition(y, x0)) for vertical + * increment. + * + * 2. Set (x, y) cell image data. + * + * 3. For the right and bottom edges: + * + * a. Render the text to pixels using Terminus font. + * + * b. Blit the image on top of the text, using alpha channel. + */ + int cellColumns = image.getWidth() / textWidth; + if (cellColumns * textWidth < image.getWidth()) { + cellColumns++; + } + int cellRows = image.getHeight() / textHeight; + if (cellRows * textHeight < image.getHeight()) { + cellRows++; + } + + // Break the image up into an array of cells. + Cell [][] cells = new Cell[cellColumns][cellRows]; + + for (int x = 0; x < cellColumns; x++) { + for (int y = 0; y < cellRows; y++) { + + int width = textWidth; + if ((x + 1) * textWidth > image.getWidth()) { + width = image.getWidth() - (x * textWidth); + } + int height = textHeight; + if ((y + 1) * textHeight > image.getHeight()) { + height = image.getHeight() - (y * textHeight); + } + + Cell cell = new Cell(); + cell.setImage(image.getSubimage(x * textWidth, + y * textHeight, width, height)); + + cells[x][y] = cell; + } + } + + int x0 = currentState.cursorX; + for (int y = 0; y < cellRows; y++) { + for (int x = 0; x < cellColumns; x++) { + assert (currentState.cursorX <= rightMargin); + + // TODO: Render text of current cell first, then image over + // it (accounting for blank pixels). For now, just copy the + // cell. + DisplayLine line = display.get(currentState.cursorY); + line.replace(currentState.cursorX, cells[x][y]); + + // If at the end of the visible screen, stop. + if (currentState.cursorX == rightMargin) { + break; + } + // Room for more image on the visible screen. + currentState.cursorX++; + } + linefeed(); + cursorPosition(currentState.cursorY, x0); + } + + } + + /** + * Parse a "Jexer" image string into a bitmap image, and overlay that + * image onto the text cells. + * + * @param pw width token + * @param ph height token + * @param ps scroll token + * @param data pixel data + */ + private void parseJexerImage(final String pw, final String ph, + final String ps, final String data) { + + int imageWidth = 0; + int imageHeight = 0; + boolean scroll = false; + try { + imageWidth = Integer.parseInt(pw); + imageHeight = Integer.parseInt(ph); + } catch (NumberFormatException e) { + // SQUASH + return; + } + if ((imageWidth < 1) + || (imageWidth > 10000) + || (imageHeight < 1) + || (imageHeight > 10000) + ) { + return; + } + if (ps.equals("1")) { + scroll = true; + } else if (ps.equals("0")) { + scroll = false; + } else { + return; + } + + java.util.Base64.Decoder base64 = java.util.Base64.getDecoder(); + byte [] bytes = base64.decode(data); + if (bytes.length != (imageWidth * imageHeight * 3)) { + return; + } + + BufferedImage image = new BufferedImage(imageWidth, imageHeight, + BufferedImage.TYPE_INT_ARGB); + + for (int x = 0; x < imageWidth; x++) { + for (int y = 0; y < imageHeight; y++) { + int red = bytes[(y * imageWidth * 3) + (x * 3) ]; + if (red < 0) { + red += 256; + } + int green = bytes[(y * imageWidth * 3) + (x * 3) + 1]; + if (green < 0) { + green += 256; + } + int blue = bytes[(y * imageWidth * 3) + (x * 3) + 2]; + if (blue < 0) { + blue += 256; + } + int rgb = 0xFF000000 | (red << 16) | (green << 8) | blue; + image.setRGB(x, y, rgb); + } + } + + /* + * Procedure: + * + * Break up the image into text cell sized pieces as a new array of + * Cells. + * + * Note original column position x0. + * + * For each cell: + * + * 1. Advance (printCharacter(' ')) for horizontal increment, or + * index (linefeed() + cursorPosition(y, x0)) for vertical + * increment. + * + * 2. Set (x, y) cell image data. + * + * 3. For the right and bottom edges: + * + * a. Render the text to pixels using Terminus font. + * + * b. Blit the image on top of the text, using alpha channel. + */ + int cellColumns = image.getWidth() / textWidth; + if (cellColumns * textWidth < image.getWidth()) { + cellColumns++; + } + int cellRows = image.getHeight() / textHeight; + if (cellRows * textHeight < image.getHeight()) { + cellRows++; + } + + // Break the image up into an array of cells. + Cell [][] cells = new Cell[cellColumns][cellRows]; + + for (int x = 0; x < cellColumns; x++) { + for (int y = 0; y < cellRows; y++) { + + int width = textWidth; + if ((x + 1) * textWidth > image.getWidth()) { + width = image.getWidth() - (x * textWidth); + } + int height = textHeight; + if ((y + 1) * textHeight > image.getHeight()) { + height = image.getHeight() - (y * textHeight); + } + + Cell cell = new Cell(); + cell.setImage(image.getSubimage(x * textWidth, + y * textHeight, width, height)); + + cells[x][y] = cell; + } + } + + int x0 = currentState.cursorX; + for (int y = 0; y < cellRows; y++) { + for (int x = 0; x < cellColumns; x++) { + assert (currentState.cursorX <= rightMargin); + DisplayLine line = display.get(currentState.cursorY); + line.replace(currentState.cursorX, cells[x][y]); + // If at the end of the visible screen, stop. + if (currentState.cursorX == rightMargin) { + break; + } + // Room for more image on the visible screen. + currentState.cursorX++; + } + if ((scroll == true) + || ((scroll == false) + && (currentState.cursorY < scrollRegionBottom)) + ) { + linefeed(); + } + cursorPosition(currentState.cursorY, x0); + } + + } + }